Educational device



C. C. TAYLOR June 20, 1939.

EDUCATIONAL DEVICE Filed Feb. 2, 1937 5 Sheets-Sheet l v INVENTOR 09/24 0. mnoe BY 75/ PM. Maj "ATTORNEY June 20, 1939. c. c. TAYLOR 2,162,766

EDUCATIONAL DEVICE Filed Feb. 2, 1937 5 Sheets-Sheet 2 INVENTOR CHE'L c. THYL, OE

FIE H #3 54- June 20, 1939. c. c. TAYLOR EDUCATIONAL DEVICE Filed Feb. 2, 1937 5 Sheets-Sheet 3 INVENTOR 09/21, 6. TH YLOE BY June 20, 1939. c. c. TAYLOR 7 2,162,766

EDUCATIONAL DEVICE Filed Feb. 2, 1937 5 Sheets-Sheet 4 INVENTOR H5: y I B50124 c. THYLOE' ATTORNEY June 20, 1939.

c. c TAYLOR EDUCATIONAL DEVICE Filed Feb. 2, 1937 5 Sheets-Sheet 5 INVENTOR CHEL vc. TAYLOR BY 1 ,qsz ez. ATTORNEY Patented June 20, 1939 PATENT OFFICE EDUCATIONAL navrcr:

Carl C. Taylor, Brownwood, Tex., assignor to Educational- Laboratories, Inc., Brownwood, Tex a corporation of Texas Application February 2, 1937, Serial No. 123,641

24 Claims.

The present invention relates to apparatus for training the eyes to focus on groups of words in a line of reading, matter, a mode of reading known as rhythmic reading.

An object of the present invention is to improve the apparatus disclosed in Taylor Patent 1,918,298, patented July 18, 1933, by rendering its operation more nearly. automatic and thereby facilitating the use of the apparatus by even unskilled operators.

A further object of the invention is to increase the accuracy of operation of the apparatus so as to insure that the lines of reading matter register with the opening or window in the front of the apparatus.

In the accompanying vdrawingswhich illustrate my invention:

Fig. I is a perspective view of the apparatus;

Fig. II is a perspective view of mechanism contained within the casing, the latter being indicated by chain lines;

Fig. III is a fragmentary perspective view similar to Fig. II but taken from the other end of the apparatus;

Fig. IV is a transverse section through the apparatus;

Fig. V is a view in elevation of a mechanism for operating it;

Fig. VI is a view in elevation of the dial indicating the several positions of the control member;

Fig. VII is a sectional view on the axis of the magnetic brake, I

Fig. VIII is a similar view of the magnetic clutch;

Fig. IX is a perspective view on an enlarged scale of the cylindrical rotatable member of the switch controlling the operation of the brake and clutch;

Fig. X is a wiring diagram of the apparatus;

Fig. XI is a sectional view through the rotatable switch member taken on the line XI-XI of Fig. X and showing the relation of the parts for rewinding the exhibitor;

Fig. m1 is a similar sectional view showing the stop position;

Fig. XIII is a similar sectional view with the parts in normal spacing relation;

Fig. XIV isa similar sectional view with the parts in relation for spacing each third cycle;

Fig. XV is a similar sectional view with the parts in repeat relation; I

Fig. XVI is a similar sectional view with the parts in relation for continuous travel of the exhibitor; and

Fig. XVII is a plan view of a contactor which shutter and controls halting of the exhibitor to expose suc- I cessive lines of reading matter or the like.

The apparatus as disclosed in the presentapplication incorporates numerous valuable features of the apparatus disclosed in the above mentioned Patent 1,918,298. Just asin the disclosure of that patent, the present apparatus is provided with shutters which operate serially. in timed relation to the step by step advance of the exhibitor. According to the disclosure of the patent, the set of shutters is operated so that after a line of indicia is positioned behind the window, these shutters open serially; and then the exhibitor is advanced to display the .next line of indicia.

In the present apparatus provision is made for 'this same mode of operation, and also for retaining the same line of indicia behind the window while the series of operations of the set of shutters is performed three times. Thisis suflicient repetition of a particular line so as to be firmly impressed upon the mind of the reader.

With the machine of the patent, rewinding can be eifected at any time. The same is true of the apparatusdisclosed herein, and the latter has the further advantage that it is necessary merely to turn the control member to the rewind notch to cause rewinding at any time. It is not necessary in order to rewind to swing the front wall of the casing to open position as with the machine of the patent.

The same control member mentioned above will, upon turning to the designated notch, bring about indefinite repetition of the same line 01' indicia on the exhibitor.

Variation in the speed at which the shutters open and close as the'exhibitor is advanced step by step, is broughtabout by changing the speed of the motor, the motor speed being under the control of a separate control member extending through the casing of the apparatus. 0

4 The automatic stopping of the exhibitor at the end of a roll takes place with the apparatus of the present application but in a difierent manner from. that disclosed in the patent above mentioned. A further feature is incorporated in the apparatus of the present application in that, if the operator so elects, automatic rewinding will take place followed by a restarting of the apparatus on the original cycle. This means that with the same exhibitor in the apparatus, the mechanism automatically reverses the direction of movement of the exhibitor .at the end of the roll and then restarts the exhibitor from the beginning again.

If at any time the operator wishes to skip a 5 5 portion of a roll, it is merely necessary to turn the control member to a designated notch in order to bring about continuous winding instead of the intermittent advance of the exhibitor which takes place during normal operation of the apparatus. As soon as the operator reaches the part of the exhibitor which he wishes to display in the normal manner, the normal cycle of operation of theshutters in timed relation to the intermittent advance of the exhibitor can be resumed.

No matter whether the apparatus has been set for continuous advance of the exhibitor, for automatic rewind, or for normal operation, the exhibitor is always stopped at the end of the roll.

Of course, if the apparatus has been set for automatic rewind, such rewinding will then take place. Otherwise the exhibitor comes to a stop. The control member has a notch to which it may be turned for stopping the motor at any time.

One of the important features of construction of the apparatus disclosed herein is the arrangement for the drive of a pair of rollers 9 and it which operate to advance the exhibitor H step by step so as to display the indicia thereon a line at a time through the window G2 in the casing [3 of the apparatus.

The rollers 9 and i0 control the movement of the exhibitor and, according to the broader as-, pect of the invention, may merely effect the travel of the exhibitor in opposite directions. More specifically, however, the roller 9 is a supply roller and the roller i0 is a winding roller. The driving connections to the latter from the motor 25 include a clutch it which is operated alternatively with a brake ill, the latter being on the oppositeend of the roller ill from the clutch in accordance'with the present embodiment of the invention. We find it convenient to operate the clutch i6 and the brake i'l electrically, and to cut off the supply of current to one while supplying actuating current to the other.

One end of the roller 9 is engaged by the square end of a stub rewind shaft i9, while the'other end is supported by a sliding stud 20. The stub shaft is and the sliding stud 2 0 are journalled in opposite end walls 2! and 22 respectively, the stud 2U sliding in the wall 22 against the tension of a spring 23. The walls 2! and 22, and more particularly the wall 2i, afford a support for the actuating mechanism for the rollers 9 and i0 which will now be described, referring first to Fig. III. Y

The electric motor 25 is controlled as to speed by a governor 26 which is adjustable during operation of the motor by an adjustment screw 2? rotatable by a knob 28 outside the casing l3. The various speeds are indicated by indicia on a dial 23.

A Jack shaft 30 is driven from the motor 25 through a speed reducer 3| connected to the jack shaft 30 by a pair of bevel pinions 32. The end of the jack shaft 30 which projects through the wall 2| has secured thereto both a gear 34 and a sprocket 35. The latter serves to drive a chain 36 through which the drive from the motor may be transmitted to-the various moving parts of the apparatus, this chain being continuously driven whenever currrent is supplied to the motor 25. The chain passes about a sprocket 38 secured to one part of the clutch l6 so that when the clutch i6 is so actuated (electrically) as to cause its two parts to be simultaneously rotated, the winding roller I0 is rotated in a clockwise direction (as seen in Fig. III);

' The chain 36 also passes over an idler pulley 40 and over a sprocket 4| secured to the cam shaft 42 which extends along the lower front portion of the casing 13. This shaft 42 provides a pivotal mounting for a front wall or door 43 which affords access to the exhibitor ll so as to permit the removal of one roller 9 and the substitution of another.

The window H! (see Fig. IV) is formed in the wall 43; and the exhibitor H is caused to pass behind this window l2 as umolled from the roller 9 and rolled up on the roller ill by guide rollers 45 and 46. When starting an exhibitor after the supply roller 9 has been inserted in the apparatus and mounted on the stub shaft l9 and sliding stud 20, the leading end of the exhibitor is passed around the guide rollers 45 and 46, and a hook t! on the winding roller ill is engaged in an eye at the leading end of the exhibitor. A knob 58 (see Fig. III) which extends from the end of the apparatus is connected to the winding roller it! so as to rotate this roller suflicientiy to start winding the exhibitor on the roller i0.

Shutters are provided for blanking out successive portions of the window 12 so as to require rhythmic reading of the words or groups of words displayed behind the window 52. In order to operate the shutters serially, the several cams 50, Si and 52 on the cam shaft 32 are so oriented on that shaft as to give the proper sequence of operation of the shutters. As all of the shutters operate in substantially the same manner, the operation of a single shutter 53 will be described. Y

A frame 55 secured to the front wall or door :53 carries a pair of slides 56. Each shutter which is preferably formed of sheet material has an integral mounting portion 51 extending downwardly from about the middle of its bottom edge. Ears 58 are struck up from the portion 57 to provide three bearings which cooperate with the slides 55.

Each cam has a low portion on its side for permitting the respective shutter to move upwardly. A rocker 60 is pivoted on the rear of the wall 63 by a stud 6!. This rocker carries a cam follower in the form of a roller 62 which is arranged to travel on the side of the cam and adjacent its periphery, and so as to move to the right (as seen in Fig. IV) when riding on the low portion of the cam. A tension spring 64 is secured to the wall 63 and to a pin 85 on the lower on the arm 61. The .outer end of the arm 61 ispivotally connected to a link I0 pivoted at H to the portion 51 of the shutter. A crank I3 is journalled in the front wall 43 adjacent each stud SI and each *crank I3 is provided with a knob 14 on the outside of the casing for operating the crank. Each crank has a crank pin i5 which is interposed between a pair of lugs 16 and Ti extending from the lever arm $1. Throwing the crank 13 one way or the other swings the lever arm Bl downwardly or upwardly. In this manner any shutter may be locked in raised or lowered position. During normal operation the pin 15 is in central position (as shown in Fig. V)

so as not to interfere'with the rocking of the arm 51.

The chain 36 also passes about a guide pulley 88 on the outer end of the stub shaft I9. On the stub shaft I9 between the pulley 88 and the wall 2| is a friction clutch 8| for connecting the stub shaft I9 to a gear 82 which is fixed to one part of this friction clutch 8|. The gear 82 meshes with the gear 34 so as to tend to rotate the roller 9 in a direction for rewinding the exhibitor (counter-clockwise as viewed in Fig. 111) The friction in the clutch it is sufiicient to rotate the roller 9 when the roller I8 is released from both the clutch I8 and the brake I1 so as to rotate freely; On the other hand, so long as either the clutch I6 or brake I1 controls the winding roller I8, slipping takes place in the friction clutch 8| between its two parts instead of the gear 82 causing driving of the roller 9.

As has been indicated in the previous description of the invention, the exhibitor II, after its leading end has been hooked to the winding roller I8, moves step by step or line by line past the window I2. During reading of a particular line as revealed by the serially lowered shutters, the winding roller I8 isheld stationary by the magnetic brake I1. Meanwhile the exhibitor .II is held taut because the friction clutch 8| tends to rotate the roller 9 in a rewind direction. The length of time the brake I1 holds the roller I8 stationary is controlled by a circuit breaker (later to be described) which'temporarily renders the brake I1 inoperative and the clutch I6 operative. The exhibitor II starts to travel. The circuit breaker has broken the supply of current to the brake only temporarily; but the current supplied thereto is restored only when contact can be made between a contaotor and the periphery of a portion 86 of the upper guide roller 46. From Fig. X it will be understood that the guide roller 46 is in two metal parts '86 and 81 connected by an insert 88 of insulating material. The trunnions 89 and 98 by which the guide roller 46 is rotatably supported in the end walls 2| and 22 serve to carry the current from these portions 86 and 81. The exhibitor is itself an insulating medium between the contact or 85 and the portion 86. Perforations 86' are cut through the exhibitor II in registry with the contaotor 85 and at such intervals as to properly position each line of reading material behind the window I2. As soon as contact is made through a perforation from the contaotor 85 to theportion. 86, the supply of current to the brake I1 is restored and the winding roller I8 is arrested. In normal operation, the roller I8 is held stationary by the brake I1 until the timing device, above referred to, again breaks the circuit supplying current to the brake.

If both the brake I1 and the clutch I6 are cut off from their source of current, rewinding takes place without the intervention of any other instrumentality, because the friction clutch 8| is instantly available to establish the drive to the roller 9 for rewinding the exhibitor II. A contaotor 92 similar to the contactor85 is arranged.

at the opposite end of the guide roller 48 for cooperating with the portion 81 thereof when slots cut in the exhibitor II in registry with the contactor 92 permit current to pass between the contabtor and the portion 81 of the guide roller. With these preliminary explanations the wiring diagram shown in Fig. X will be explained so as to make clear the various operations of which the 15 apparatus is capable.

The usual flexible cable having the lead in wires ,I8I and I82 is provided with the usual plug I 88. The diagram shown is for use with either alternating or direct current; and as the brake, the clutch, and the portion of the electrical system which has control functions are designated for direct current, a rectifier unit I85 is incorporated for rectifying current for these purposes in case what is used is A. C. The motor 25 may be designed for A. C., or may be of the universal type which runs on either A. C. or D. C. To distinguish the circuits, the alternating current brought in by the leads IN and I82 is indicated in heavier line than the current provided for the remainder of the apparatus by the rectifier unit I85. Of

course, if, the leads I8| and I82 bring in direct current, the rectifier unit I85 has no function and the entire system runs on direct current. In such case, however, provision, as shown in the diagram, should be made for full-wave rectification, or with half-wave rectification care should be taken to plug in with the correct polarity in order that the positive flow of the current will be lead into therectifier unit. The main control switch I86 controls not only the control circuit but also includes a switch I81 for making and breaking the circuit supplying current to the rectifier unit I85 and the motor 25. A rod I88 extends the length of the apparatus to a knob I89 at the end of the apparatus at which the other controls, including the speed control 28, are positioned. When the knob I89 is turned to the position indicated by the word Stop, the circuit supplying 'alternating current to the motor 25' is broken by the switch I81 halting the apparatus as an entirety. (Compare Figs. VI and X.)

Starting to trace the control circuit from the rectifier unit, the current may flow either along a wire II8 to one of a pair of contacts II I and H2 of a sequence relay, or along a wire III to the contaotor 92. Assuming that the contacts III and H2 are closed, the current flows along a wire 4 to a contact II5 of the main switch I86. A notched disc II6 on the end of the rod I88 is engaged by a spring pressed roller II6a for yieldably positioning the switch in the several control positions. Assume that the switch I 86 has been turned from Stop position to the next notch which is arranged for normal operation of the apparatus. Contact 5 engages the metal segment II1a arranged centrally in the switch, and current can flow through contacts H1 and H8, the former leading to the brake I1 and the latter to the clutch I6. (See Fig. XIII.)

A"suming that the parts are in such" relation that current may flow to the magnetic brake, such flow takes place along the wire I28 and from one of the points I2| to the other point I22 through the cyindrical metal member I23 of the circuit breaker, then through the wires I 25 and I26. The current then flows in parallel through the magnetic brake I1 andthrough the coil I28 of a relay indicated in general by the numeral I29. The circuit is completed through the wire I38, the trunnion 89, roller portion 86, contaotor cordingly, at the proper time in the cycle of op erations of the shutters, the control circuit through the magnetic brake I1 and relay I29 is broken and the armature I34 is pulled away through trom the core of the relay by the tension spring I35 so as to engage a contact I131. Current flow can now takeplace from the switch contact II8-through wire I30 and the magnetic clutch I8 back to the rectifier unit through contact I31, armature I34 and wire I39.

- The energizing of the clutch I6 causes the roller I to advance the exhibitor II until contact is once more permitted between contactor 85 and roller portion 86 through a perforation 88 in the exhibitor II. Such contact causes current flow the winding I28 of the relay I29 so as to break the circuit through the magnetic clutch at contact I31 by drawing the armature I36 toward the core or the relay I29. It will be noted that when the armature engages the contact I99, the circuit through the wire I30 and contactor 85 is shorted due to the current flow through the armature I34 and wire I39 directly to the rectiher unit I05. Of course the contact through the perforation 96' has also brought about current flow through the brake I'I; so that as soon as the perforation 86' is reached in the travel of the exhibitor, the clutch I0 is deenergized and the brake I1 is simuitaneously applied.

This arrangement has solved the dimcult problem of surely halting the exhibitor, using perforations which are small enough not to materially weaken the paper or other material of which 'the exhibitor is made. From one point of view the perforations 98' are merely trips, as continued-current flow through the wire I99 and contactor 85 is not necessary for maintaining the brake I1 applied to the roll I9. Once the armature I35 is pulled over to release the clutch It, the former is latched in engagement with contact I40 by the current flow through the coil I28 and wire I39; so that it makes no difference whether the brake I1 acts fast enough to stop the exhibitor with the contactor still making contact with the roller portion 06 through a perforation. This is of importance because it the apparatus is being operated at one of its higher speeds,-it may be diiiicult to obtain such quick action on the'part of brake I1 as to stop the exhibitor with the contact through a perforation 96' still efiective, especially where the perforations are as small as is desirable.

Should the operator desire to repeat the same line of indicia on the exhibitor I I three times, he rotates the switch I00 to the next notch with the result that another contact I92 is connected in the control circuit. Examining the switch I09 (Fig. IX) it will be noted that a bridge I43 connects the central segment II'la. to the parallel segment I44. The switch I08 has now been rotated to a position where the segment I44 brings into the circuit the contact I42 which supplies current through wire I48 to a second circuit breaker. This second circuit breaker includes a rotatable cylindrical member I41 mounted for rotation on a stud I48'with its axis parallel to the cam shaft 42. Intermeshing gears I49 and I50 are secured respectively to the cam shaft 42 and the cylindrical member I41, these gears having a three' to one whom that the cylindrical member I23 makes three complete revolutions for one complete revolution of the cylindrical member I41. The latter has an insert I52 of insulating material in similar fashion as the cylindrical member I23, so as to break the circuit through the points I53 and I59 at the same time that the circuit through the points I2I and I22 is broken. The circuit including the points I53 and I54 is completed to the wire I26 through the wire I55. After each complete cycle of the shutters, the circuit including contactI I1. wires I20, I25 and I29 and the points I2I and I22 is broken by the insulation I32; but only once in three complete cycles is the circuit simultaneously broken through the wires I49 and I55 and the points I53 and I54. It is, therefore, only once in three complete-cycles of the shutters that current flow through the brake and through the winding I28 is broken to permit the armature I34 to swing against the contact I31 so as to energize the clutch I6 and advance the exhibitor II to the next line of indicia;

Rotation of the switch I06 to the next notch moves the central segment II1a. and the bridge I99 to such a position as to bring into the circuit still another contact I51. This permits direct flow from wire II4 through the central segment Ilia, the bridge I43, contact I51, wire I58 and wire I59 to both the magnetic brake I1 and the winding I28 of the relay I29. This shorts the circuit through the points I2I and I22 of the circuit breaker so that the breaking of the circuit between these points has no effect. In other words, current flow is maintained continuously through the magnetic brake and the winding of the relay so as to hold the roller I0 stationary as long as the switch is maintained in this, the repeat position.

In passing, it will be noted that the same effect is brought about by current flow to the wire I59 by way of contactor 92 (such flow of current taking place only in case the contactor 92 comes into contact with the roller portion 81, as when one of the above mentioned slots in the exhibitor II is reached). In order that such current flow through the contactor 92 may take place, the current supplied from the rectifier unit I through wire II8 flows from the roller portion 91 through the trunnion 90 and wire I6I to a control switch I62 which is of the single pole double throw type.

Under the conditions now assumed (which we will call "manual control) the switch lever I63 has been moved so as to complete the circuit through the contact I64. This means that current may flow through the wire I65 to the wire I59. The purpose of such a circuit through the contactor 92, the switch I62 and wire I65 so as to supply current both to the brake I1 and the relay I29 will be later explained.

From the repeat position, the switch I06 can be rotated one more notch into a position which is indicated by the word Continuous. In this position the central segment II1a completes a circuit only between the contacts H5 and H8. As no current can flow through the winding I28 oi the relay I29, the circuit through wires I38 and I39 by way of contact I31 and armature I34 is continuously maintained. This means that the magnetic clutch I6 is continuously actuated to bring about continuous rotation of the roller I0. No flow of current through the switch I06 can take place to the winding I28.

But as above mentioned, current flow can take place through contactor 92 if a slot in the exhibitor II is reached; and such a slot is so made in the exhibitor as to be reached at or adjacent the end of a roll. As soon as this slot in the exhibitor II is reached, the circuit to the winding I28 is completed through contactor 92 so as to discontinue the supply of current to the clutch I6 and apply the brake I1.

There are two ways in which rewinding can take place. Again assuming that the switch I62 is in the position termed manual control in which contact is made with contact I64, the effect of reaching the slot near the end of the roll is to apply the magnetic brake I1. The operator now rotates the switch I06 through 180 to the notch beyond Stop position, this notch being indicated by the word Rewind". In this position of the switch I06 the central segment I I1a supplies current to neither the brake I1 nor the clutch I6. The contact H8 is at this time out of engagement with this central segment II' 1a; whilecurrent flow through either the contactor 85 or the contactor 92 is prevented by their being elevated out of contact with the guide roller 46. Movement to elevated position is brought about by eccentric pins at I68 and I69 carried by the rod I08 of the switch I06. (See Fig. 11.)

Lever arms I10 and "I connected respectively to the contactors 92 and 85 are engageable by the pins I68 and I69 respectively. As is clear from Figs. II and X, both contactor 85 and contactorv 92 are pivotally mountedsothat the lever arms I10. and HI can swing them to elevated position when the rod I08, in rotating to rewind position, brings the eccentric pins I68 and I69 into contact with the lever arms I10 and HI. Accordinglyin "rewind" position of the rod I08 and switch I06 which form part of a main control member, both the brake I1 and the clutch I6 are de-energized 'so' that the friction clutch 8I may bring about rotation of the roller 9 to rewind I the exhibitor II'.

This brings about complete rewinding of the exhibitor and detachment of its leading end from the hook 41. This is in contrast to the operation of the apparatus wheh the switch I62 is thrown from the position above mentioned to its other position which we will term automatic control. In this position the switch lever I63 engages the other contact I14 so that instead of a circuit including the wire I65, a circuit is provided including a wire I15 leading to the sequence relay referred to at the beginning of the description of the wiring diagram. From the sequence relay this circuit may be completed to the rectifier unit by way of a wire I16.

We will now assume that with the switch I62 in automatic control position the contactor 92 rides onto the slot adjacent the end of the roller and makes contact with the roller portion 81. A circuit is now completed through wire II3, contactor 92, roller portion 81, trunnion 90, wire I6I, contact I14, wire I15, the sequence relay and wire I16. This breaks the circuit through contacts III and I I2. The supply of current to the contact H5 is therefore, cut ofl, and no current fiow can take place through the switch I 06 to either the brake I1 or the clutch I6. Accordingly both of these are de-energized. Since as has been above noted,- the drive chain 36 operates continuously so long as the motor 25 is actuated, the friction clutch 8| ceases to slip and immediately the chain 36 drives the roller 9 in the rewinding direction by virtue of the driving connection through the gears 34 and 82 and the trio'- tion clutch 8|.

In this way the supply of current to the sequence relay by way of the wires I6I and I15 brings about automatic rewinding. The travel of the exhibitor II during rewinding breaks the contact between the contactor 92 and the roller portion 81 so that the sequence relay is set. for the second stage of its operation. This second stage occurs when a circuitv is again established through the contactor 92, the roller portion 81 and wires I6I and I15; and in this second stage the contacts III and H2 are again closed. In

order that there may be such current flow through the contactor 92, the exhibitor II has a slot near its beginning end in registry with the contactor 92; and therefore when the roll is near- 1y completely rolled up on'the roller9, the contactor completes the above mentioned circuit by engaging the roller portion 81 through this slot to cause closing of the main control circuit at the contacts III and I I2 as above indicated. The closing or the contacts I II and IIZof courseagrestores the mechanism to the condition in'which it was at the time when the slot adjacent the end of the roll caused actuation of the sequence relay so as to start rewinding.

It is apparent therefore that the sequence relay is simply intended to alternatively open and close the contacts III and H2, the relay being reset for its other 'mode of operation each time it is cut in and out of the circuit including the wires I15 and I16. The usefulness of this sequence relay is in first discontinuing the fiowof current through the main control circuit when the end of a roll is reached, and then reestablishing the flow of current through the control circuit when the beginning of the roll is in position for a repetition of its passage past the window I2.

It is not necessary for proper operation of the mechanism that'a particular construction of magnetic brake or a particular construction of magnetic clutch be employed. The drawings illustrate in Figs. VII and VIII a suitable construction of each. The brake which is shown in Fig. VII includes an armature I18 secured to the wall 22 and provided with sufl'icient windings I19 to establish the required magnetic effect. The current is supplied to these windings by the wires I26 and I30. A plate I8I is connected by a stud or pin I82 to a hub I83 fixed to the shaft I84 of the roller I0. A leaf spring'l85 biases the plate I8I toward the armature, this plate being free to move longitudinally of the hub but being prevented by the pin I82 from rotating relative thereto.

The clutch which is illustrated in Fig. VIII comprises a driving member I88 in the form of a plate connected to a hub I89 by a pin I90. The hub is in turn fixed to the shaft I84 of the roller I0.

I88 to move longitudinally of the hub without permitting relative rotation between the plate and hub. The driven member I92 of the clutch is in the form of an armature furnished with windings I93. The drive sprocket 38 is fixed tothe armature I92 so as to rotate the same whenever the chain 36 is in motion. The armature is journalled on the shaft I84 and is free to rotate relative thereto except when current is supplied to the collector rings I95 and I96 from the contacts I91 and I98 supplied with current from the wires I38. and I99 respectively.

The construction of contactor illustrated in Fig. XVII is flexible in operation and of advantage in ensuring adequate contact even' though there be some weaving of the exhibitor. A pivotally mounted bar or bracket 20I is carried by the end wall M; and from the bracket 20I project forwardly two parallel -arms 202. An axle 203 connects the forward ends of the arms 202, and a plurality of discs 204 turn loosely on this axle. The central openings in the discs are enough larger than the axle 203 so that the discs ride on the exhibitor, and any disc 204 can drop independently into a depression in the exhibitor,

This construction permits the plate more particularly into a perforation 06'. Assume that as the exhibitor is found from roller 9 onto roller I0, it gets out of alignment so that the perforations 86' are to the right (or left) of the positions shown. Considerable leeway is provided by the plurality of discs mounted on the axle 203, since any one of these discs can drop into contact with the roller portion below, through a perforation 86', without being held up by the other discs riding on the exhibitor. Current flow through each disc 204 is ensured through lateral contacts. The arms 202 carry current as do also a plurality of wires 206 each fixed, as by welding, to the bracket 20I at one end and to the axles 203 at the other.

The operation of the improved apparatus disclosed in the present application takes place with a minimum of supervision; and the positioning of the lines of indicia behind the window I2 is accurately maintained. Such positioning of the exhibitor depends upon the travel of the exhibitor itself; since a perforation must pass beneath the contactor 85 in order that the brake I'I maybe applied to stop the movement of the exhibitor.

The release of the brake II by the breaking of the circuit supplying current thereto as the insulating segment passes beneath the contact points I2I and I22 (or I53 and I54 as the case may be) permits the forward travel of the exhibitor at the proper point in the cycles of operations of the shutters actuated by the cams on the shaft 42 which also drives the circuit breaker members I23 and 1. Of course the perforations in the exhibitor are made of sufficient size to make sure of establishing current flow to the brake I1; however, I have devised such an advantageous arrangement of self-latching relay I29 and such a flexible contactor 85 that the perforations may be quite small. Due to this small size of perforation, the contactor has been passed by the said perforation by the time the points of the circuit breaker have ridden off the insulat ing segment thereof even though this segment be of quite restricted arc.

The availability of the drive through gears 34 and '82 ready at any time to take up slack in the exhibitor II or to bring about its rewinding is an important advantage. It is not necessary to engage the exhibitor by brakes or pressure rollers for maintaining it in taut condition, because the continuous action of the friction clutch 8| insures such condition. Moreover, it is not necessary to engage a clutch or bring gears into mesh in order to bring about rewinding; and accordingly such operation is sure and substantially instantaneous.

The stopping of the exhibitor at the end of a roll is an important safeguard in rendering the operation of the apparatus more nearly fool-proof. No matter what is the position of the switch I06, the passage of current through the contactor 92 prevents the furtheradvance of the exhibitor I I. If the switch I62 is turned for manual control the brake I1 is applied. If the switch is turned for automatic control, the rewinding of the exhibitor takes place automatically.

Further advantages of the present invention have been pointed out in the course of the description or will be more particularly pointed out in the appended claims.

It is not necessary that the sequence relay and the switch I62 be used. These may both be eliminated and the wire M0 permanently connected to the wire lid, and also the wire iti permanently connected to the wire 565. In this case the exhibitor always comes to a'stop at the end of a roll, necessitating movement of the switch I00 to "rewind position in order that rewindin maytake place.- With this arrangement, the exhibitor is completely rewound and the eye is disengaged from the hook ll.

While I have illustrated and described the embodiment of my invention which I at present prefer, it will be understood that the invention may be otherwise embodied and practiced within the scope of the following claims.

I claim:

1. In an educational device, the combination with a pair of rollers for an exhibitor of the flexible strip type, one of said rollers being a winding roller and the other a supply roller, of actuatin means for said rollers comprising a driving connection to the winding roller, an impositive driving connection to the supply roller, said drivin connections being simultaneously operable and being opposed to each other in tending to cause the exhibitor to move in opposite directions, and means for rendering one of said driving connections inoperative.

2. In an educational device, the combination with a pair of rollers for displaying successive portions of an exhibitor of the 'flexible'strip type, of actuating means for said rollers comprising a driving connection to each of said rollers, said driving connections being simultaneously operable and being opposed to each other in tending to so turn said rollers as to move the exhibitor in opposite directions, there being a slip connection in one of said driving connections, and means for releasing the other driving connection from its roller so that the exhibitor may be driven through the driving connection with said slip connection.

3. In an educational device, the combination with a pair of rollers for an exhibitor of the flexible strip type, one oi said rollers being a winding roller and the other a supply roller, of driving means for advancing the winding roller step by step and driving means for driving the supply roller continuously including a frictional connection to thesupply roller, said driving means being simultaneously operable and tending respectively to so turn said rollers as to cause the exhibitor to move in opposite directions, and means for rendering the driving means. for the winding roller inoperative so that the exhibitor may be continuously retracted by said supply roller.

4. In an educational device, the combination with a pair of rollers for an exhibitor of the flexible strip type, one of said rollers being a winding roller and the other a. supply roller, of driving means for the winding roller, driving means for the supply roller including a frictional connection to the supply roller, said driving means being simultaneously operable and tending respectively to so turn said rollers as to cause the exhibitor to move in opposite directions, and means for releasing the driving means for the winding roll so as to render the driving means for the supply roll effective.

5. In an educational device, the combination with a roll type exhibitor having means for advancing the exhibitor step by step with a dwell between steps, of actuating means for said advancing means, driving connections between said actuating means and said advancing means including a device for putting said driving connections into operation, and timing means driven by said actuating means for timing the duration of dwell of said exhibitor and controlled as to extent of said steps by the exhibitor itself in traveling.

6. In an educational device, the combination with a roll type exhibitor having means for advancing the exhibitor step by step with a dwell between steps, of actuating means for said advancing means, driving connections between said actuating means and said advancing means including a device for putting said driving connections into operation, and a plurality of timing means driven by said actuating means for timing selectively a longer or shorter duration of dwell of said exhibitor and each controlled as to extent of said steps by the exhibitor itself in travelling, so as to obtain the same step with any of said timing means.

'7. In an educational device, in combination, a pair of rollers for displaying successive portions of an exhibitor of the flexible strip type, shutters for blanking out each a section of the portion of the exhibitor displayed, means for operating the shutters, actuating means for said rollers comprising a driving connection to each roller, said driving connections being simultaneously operable and opposed to each other in tending to cause the exhibitor to move in opposite directions, the driving connection to the reverse driving roller being impositive, means for halting said exhibitor while said first mentioned means and said impositive driving connection continue to operate, and 'means for releasing the forward driving roller from its driving connection to reverse the movement of the exhibitor.

8. In an educational device, in combination, a pair of rollers for displaying successive portions of an exhibitor of the flexible strip type, shutters for blanking out each a section of the portion of the exhibitor displayed, means for operating the shutters, actuating means for said rollers comprising a driving connection to each roller, said driving connections being simultaneously operable and opposed to each other in tending to cause the exhibitor to move in opposite directions, means for rendering one of said driving connections inoperative while said first mentioned means continues to operate the shutters, the other of said driving connections being impositive, a brake for maintaining the exhibitor stationary while said driving connection is inoperative, and means for releasing the corresponding roller from both said brake and said driving means to permit said impositive driving means to reverse the travel of the exhibitor.

9. In an educational device, in combination, a roll type exhibitor bearing indicia in a plurality of lines, shutters for blanking out portions of a line on the exhibitor, means for operating the shutters, actuating means for the exhibitor, and

' driving connections for advancing the exhibitor in the forward direction either intermittently or continuously selectively.

10. In an educational device, in combination, a pair of rollers for displaying successive portions of an exhibitor of the flexible strip type, actuat- 1 ing means therefor including driving connections to the rollers for advancing the exhibitor in the forward direction either intermittently or continuously selectively, shutters for blanking out each a section of the portion of the exhibitor dis-' played, means for operating the shutters, and means for automatically stopping the advance oi the exhibitor in the forward direction adjacent the end of the exhibitor whether the actuating means be connected for intermittent advance or for continuous advance.

11. In an educational device, the combination with a pair of rollers for an exhibitor of the flexible strip type, one of said rollers being a winding roller and the other a supply roller, of driving means for the winding roller, driving means for the supply roller including a frictional connection to the supply roller, said driving means being simultaneously operable and tending respectively to so turn said rollers as to cause the exhibitor to move in opposite directions, and means for automatically releasing the winding roller from its driving means adjacent the end of the exhibitor to efiect rewinding of the exhibitor.

12. In aneducational device, the combination with a pair of rollers for displaying successive portions of an exhibitor of the flexible strip type,

- one of said rollers being a winding roller and the other a. supply roller, of means for rotating the winding roller step by step with a dwell between steps, driving means for the supply roller including a frictional connection to the supply roller, said means being simultaneously operable and tending respectively to so turn said rollers as to cause the exhibitor to move in opposite directions, and means for automatically releasing the winding roller from its rotating means adjacent the end of the exhibitor."

13. In an educational device, the combination as claimed in claim 12 in which the intermittent rotating means for the winding roller includes a device for holding the winding roller stationary during its periods of dwell.

14. In an educational device, the combination with a pair of rollers for displaying successive portions of an exhibitor of the flexible strip type, one of said rollers being a winding roller and the other a, supply roller, of actuating means for said rollers comprising a driving connection to the winding roller for advancing the exhibitor intermittently, a driving connection to the supply the exhibitor for changing from intermittent advance of the exhibitor by the winding roller to continuous drive of the exhibitor by the supply roller in the reverse direction and eflective adjacent the beginning of the exhibitor for changing back to intermittent advance of the exhibitor by the winding roller.

15. In an educational device, the combination with a pair of rollers for displaying successive portions of an exhibitor of the flexible strip type, of actuating means for said rollers comprising a driving connection to each of said rollers, said driving connections being simultaneously operable and being opposed toeach other in tending to so turn said rollers as to move the exhibitor in opposite directions, there being a slip connection in one of said driving connections, and means effective adjacent one end of the exhibitor for automatically releasing the other driving connection and effective adjacent the other end of the exhibitor for automatically restoring the released driving connection. I

16. In an educational device,fthe combination with a pair of rollers for displaying successive portions of an exhibitor of the flexible strip type, one of said rollers being a winding roller and the other a supply roller, of actuating means for said rollers comprising a driving connection to the winding roller. for advancing the exhibitor intermittently, a driving connection to the supply roller for rewinding the exhibitor continuously, and means actuated adjacent the end of the exhibitor for selectively stopping the exhibitor or rendering the driving connection to the supply roller effective for rewinding the exhibitors 17. In an' educational device, the combination with a pair of rollers for an exhibitor of the flexible strip type, of means for intermittently rotating one of said rollers, and driving means connected to the other roller by a slip connection for driving the exhibitor continuously in the reverse direction, said first mentioned means comprising a clutch and a device for holding the respective roller stationary, said clutch and device being alternatively operable.

18. In an educational device, the combination with a pair of rollers for an exhibitor of the flexible strip type, one of said rollers being a winding roller'and the other a supply roller, of actuating means for the winding roller comprising a clutch and a brake alternatively operable to intermittently rotate and hold stationary the winding roller, driving means connected to the supply roller by a slip connection for rewinding the exhibitor, and means for simultaneously releasing both said clutch and said brake to render said driving means operative to rewind the exhibitor.

19. An educational device comprising in combination with an exhibitor having inequalities therein for controlling its travel, means for intermittently advancing the exhibitor, and electrical means for controlling said advancing means including a contactor having a plurality of elements arrangedside by side for dropping independently into a depression in the exhibitor.

20. In an educational device, the combination with a pair of rollers for displaying successive portions of an exhibitor of the flexible strip type, of actuating means for said rollers comprising a driving connection to each roller, said driving connections being simultaneously operable and being opposed to each other in tending to cause the exhibitor to move in opposite directions,'and means for releasing one of said rollers from its driving connection so the other roller may draw in the exhibitor, the driving connection to said last mentioned roller being yieldable to permit withdrawal of the exhibitor therefrom when the two driving connections are simultaneously operative.

21. In an educational device, in combination, means including a roller for displaying successive portions of an exhibitor, shutters for blanking out each a section of the portion of the exhibitor displayed, means for operating the shutters, and means for operating said roller including a' releasable driving connection thereto and a brake for maintaining said roller stationary while released, said shutters continuing to operate while said roller is thus released and braked.

22. In an educational device, in combination, a rolltype exhibitor bearing indicia in a plurality of lines, shutters for blanking out each a section of a' line on the exhibitor, means for operating the shutters in sequence in the direction ofreading, and means for advancing the exhibitor in the forward direction continuously at the selection of the operator.

23. In an educational device, the combination as claimed in claim 22 havingmeans for automatically stopping the advance of the exhibitor in the forward direction adjacent the end of the exhibitor whether being advanced intermittently or continuously. j

24. In an educational device the combination as claimed in claim 18 in which the exhibitor adjacent its end automatically actuates the means for releasing the clutch and brake.

' CARL C. TAYLOR.

either intermittently or 

